
/*
*Pool Public Licence version 0.1 or later
*Released on 20th April 2008.
*Any voilations can be repoted at paritosh@wikiocean.net
*What is treated as voilations can be found at www.wikiocean.net/ppl1-voilations* 
******************************************************************************
* The contents of this file are subject Affero GPL v3 and later with additional conditions.
* The additional conditions are to be considered as part of the Affero GPL v3 and later.
* The additional conditions will supersede the Affero GPLv3 and later in case of conflict.
* ("License"); You may not use this file except in compliance with the License
* You may obtain a copy of the License at http://www.gnu.org/licenses/agpl.html
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for
* the specific language governing rights and limitations under the License.
* The Initial Developer of the Original Code is Paritosh Pungaliya.
* created by Paritosh Pungaliya are Copyright (C) Paritosh Pungaliya; All Rights Reserved.
* Contributions are Copyright (C) 2001-2008 Paritosh Pungaliya.

* Objective of the additional terms (license) 
* 1) Is to extend the software freedom to freedom to work.
* 2) To ensure that knowledge is free from monopoly of agencie(s).
* 3) To avoid a situation where big corporates or investors can buy out free software groups and companies and then start milking the communities built around it.
* (this trend can be seen how the openness changes in companies that get Venture Capital funding.)
* (if you agree to this logic I invite you to our group to work together)

* Additional conditions
*  0) Source code will also include
* 	a) data dictionaries, data ontologies which are used to alter the behavior of code or to control           the features of application.
* 	b) Any code generated or derived automatically or manually from this code or logic
*  1) The revenue generated by deploying, implementing , selling services and other activities
*  	 based on this source code should be shared 100%, between the people working on it.
*  2) Capital invested should be given only fixed rate of return or linked to revenue/surplus growth for limited time.
*  3) People working on the project should always have an option to replace the capital provider in full or part with lower cost capital.
*  4) Their should not be any ownership which can be sold as a claim on future profit to be generated from the work of people working on the code.
*  5) Brand thus generated should belong to the group.
*  6) For old and new members revenue sharing should be equal for same work equivalent.
*  7) The share of revenue should be decided by bidding for work before allocation of work within the group.
*  8) Before bidding various method of measuring the work should be clearly defined and published in public domain. Any change in process should also be publised in public domain imediately.
*  9) All data related to to revenue sharing should be published as and when generated in public domain.
*  10) For group of people having size more than 10 people will have to make it open online for others to participate in bids. 
*  11) All people involved in related and sub project will be treated as a group.
*  12) Once this license is being used for a certain code then all and any other software services being provided by the group should complusorilly come under 100% revenue sharing.
*  13) Cross subsidization should not happen under this revenue share, no additional benefit should be drawn from the people, by the employing agency.
*  14) Any position or knowledge or legal structure created relating to people working on code, which adversely affects the spirit of 100% revenue share will be treated as a violation.
*  15) Revenue sharing defined.
*     a) includes direct revenue and also intangible gains like brand, and organization.
*     b) No personal judgment should be involved in judging the distribution of revenue.It has to be pre-defined formula based.
*     c)100% of revenue should be shared before expenses and recievers should have control over what expenses to incur.
*     d)For the work done in any month by contributing group member, working on any project can be given revenue share from the work done by the group, for a maximum of 18 months after that month.
*     e)Revenue should be apportioned to the month in which work is done and not when received.
*  The group fulfilling the above conditions also has to be a wiki ecosystem further defined in www.wekosystem.org or read about Wekosystem at www.wikiocean.net

*  ******************************************************************************
*/  
package combinereport.reportoperations.testcase;

import combinereport.reportoperations.Sum;

import dbmanager.DBManager;
import junit.framework.TestCase;
/**
 *testSum  This class is collection of a test cases which test the sum operation performed on specifed field.  
 * @author Sachin
 *
 */
public class testSum extends TestCase {
	public testSum(String name)
	{
		super(name);
	}
	/**
	 * testFirstSum() This method is used to test the sum operation which performed on a two integer value 
	 */
	public void testFirstSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("aaa\t200\naaa\t300\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"aaa\t500.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 *testMinusValueSum() This method is used to test the sum operation which performed on a two negatve integer value 
	 */
	public void testMinusValueSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("aaa\t-21\nbbb\t-21\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"aaa\t-42.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
}
/**
 *testMinusPlusValueSum() This method is used to test the sum operation which performed on a negatve and positive integer value 
 */
	public void testMinusPlusValueSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("aaa\t21\nbbb\t-21\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"aaa\t0.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * testFloatValueSum() This method is used to test the sum operation which performed on a two float values value
	*/
	public void testFloatValueSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("aaa\t2.1\nbbb\t2.1\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"aaa\t4.2"};
		s.getresult();
		String actual[] =s.getbuffer();
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * testSpaceSum()  This method is used to test the sum operation which performed on a two integer values and the space is given befor specified field
	 */
	public void testSpaceSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("\t100\n\t100\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"\t200.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * testFloatIntegerSum() This method is used to perform the sum operation on a both float and integer values
	 *
	 */
	public void testFloatIntegerSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("\t1.2\n\t22\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"\t23.2"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
		
	}
	/**
	 *testZeroIntegerSum() This method is used to perform the sum operation on a both  integer values in which one value is zero
	 *
	 */
	public void testZeroIntegerSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("\t4444\n\t000\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"\t4444.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
		
	}
	/**
	 *testOnlyZeroSum() This method is used to perform the sum operation on a both  float values in which specified value is zero
	 *
	 */
	public void testOnlyZeroSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("\t0.000\n\t000.00\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"\t0.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * testOnlyZeroSum2() This method is used to perform the sum operation on a both  float values in which specified value is zero with different combination of a fields
	 *
	 */
	public void testOnlyZeroSum2()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("xyz\t0.000\nabc\t000.00\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"xyz\t0.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * testSpecialchar1() This method is used to perform the sum operation on a integer values with different combination of a fields like special character is used
	 *
	 */
	public void testSpecialchar1()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("###\t-1\n@@@\t00\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"###\t-1.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * testMinusFloat1() This method is used to perform the sum operation on a both  float negative values 
	 */
	public void testMinusFloat1()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("pqr\t-1.1\nyyy\t-2.1\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"pqr\t-3.2"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * testThreeItem() This method is used to perform the sum operation on a integer values with different combination of a fields like three fields are used
	 */
	public void testThreeItem()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("pqr\t10\t20\nyyy\t10\t20\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"pqr\t20.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 * 
	* testSpecialchar() This method is used to perform the sum operation on a negative  and positive integer values 
	 */
	public void testSpecialchar()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("###\t-1\n@@@\t00\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"###\t-1.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
}
	/**
	 * testMinusFloat2() This method is used to perform the sum operation on a both  float negative values 
	 */
	public void testMinusFloat2()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("pqr\t-1.1\nyyy\t-2.1\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"pqr\t-3.2"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 *testDecimalSum()  This method is used to perform the sum operation on a both  float values 
	 */
	public void testDecimalSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("aaa\t-0.000015\naaa\t0.00012\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"aaa\t1.05E-4"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 *testExponetialSum() This method is used to perform the sum operation on a both  exponential values 
	 */
	public void testExponetialSum()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("aaa\t1.35000000e-4\naaa\t1.05E-4\n");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"aaa\t2.4E-4"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
	/**
	 *testOnlySum1() This method is used to perform the sum operation on only  a  float values 
	 */
	public void testOnlySum1()
	{	Sum s=new Sum();
		DBManager db=new DBManager();
		db.getConnect();
		s.setDatabase(db);
		s.setObject("10279");
		StringBuffer buffer1 =new StringBuffer("10\t10");
		s.setHeading("item.item\titem.qty");
		s.setreporton("item");
		s.setbuffer(buffer1.toString().split("\n"));
		String expected[]={"10\t10.0"};
		s.getresult();
		String actual[] =s.getbuffer();
		for(int i=0;i<expected.length;i++)
		{
		System.out.println("**************************************************************************");
		System.out.println("The contents of expectedBuffer:: ");
	    System.out.println(expected.toString());
	    System.out.println("**************************************************************************");
	    System.out.println("The contents of actualbuffer:: ");
	    System.out.println(actual.toString()); 
	    System.out.println("**************************************************************************");
		}
		for(int i=0;i<actual.length;i++)
		{	System.out.println(actual[i]);
			assertEquals(expected[i], actual[i]);
		}
	}
}


